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Cosmogenic Isotope Dating Overview

Published byCharlene Mabel Daniel Modified over 6 years ago

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Presentation on theme: "Cosmogenic Isotope Dating Overview"— Presentation transcript:

1 Comparing 36Cl Production Rates from Stone et al (1996) and Caffe, Swanson (2001)

2 Cosmogenic Isotope Dating Overview
Exposure dating technique Based on secondary cosmic rays Spallation Neutron capture Muon capture 36Cl 300,000 yr t ½ Useful from 1000 to 1,000,000 years

3 Caffe, Swanson (2001) Attempt to refine 36Cl production rates
Uses exposed surfaces on Whidbey and Fidalgo islands Well-constrained deglaciation timeline Measures spallation and neutron-capture Ring Creek lava flow, Vashon, Sumas, and interior British Columbia sites used for calibration

4 Range of Measured Production Rates

5 FIG. 5. Individual ground-level secondary neutron production rate Pf(0) values inferred from thermal neutron absorption by 35Cl show a bimodal distribution suggesting that the thermal neutron absorption rate is at least ~40% greater for the samples possessing high water content (serpentinized samples) compared with those samples possessing relatively low water content. The calculated mean secondary neutron production rate in air [Pf(0)] ±1σ error for the low water calibration samples is 762±28 fast neutrons (g air)-1 yr-1.

6 Stone, Et. Al (1996) Measurement of Calcium spallation
Calcium Feldspars analyzed High yield Low chlorine content = minimal neutron capture production Tabernacle Hill Basalt 17.3±0.3 Ka (absolute)

7 Conclusions Significant difference in production rates due to Calcium spallation ~60% Well-constrained ages for calibration surfaces Whole rock vs. mineral separates Altitude scaling

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